SU558693A1 - Scrubber - Google Patents

Description

one

The invention relates to apparatus for the purification of process gases and ventilation air, as well as for the absorption and conduct of various mass transfer processes and can be applied in the chemical and other industries.

A spherical nozzle scrubber is known, which is fluidized by the counter-current movement of the gas and the reflux liquid. It is a column in which one or more support-safety grids with balls will interfere. The velocity of the gas stream in the reaction part of such devices is usually from 2 to 5 m / s, sometimes to

8 m / s, irrigation density from 2 to 5 l / m of gas. Aerodynamic resistance 11O-1SO mm water column

Practically, hollow balls with a diameter of 30-40 mm from low pressure polyethylene with a bulk weight of 0.10, 2 g / cm l are used.

Known scrubber with a movable nozzle comprising a cylindrical housing with support grids, in which is fixed

rod connected to a vibrator, tank with irrigating fluid 2J.

However, in known scrubbers, the need to maintain a certain gas flow rate with permissible vibrations of 1-3 m / s, since the fluidization of the nozzle is carried out primarily by the movement of gases, using only light expensive and scarce spheres, usually not applicable at temperatures above 1OO-1SO. relatively high aerodynamic resistance is observed, which complicates the selection of fans, especially with a multistage system, the overgrowth of solid deposits of splash-down devices, These include centrifugal pumps with electric motors and pipelines for irrigating the nozzle and for mixing the liquid.

In order to increase the efficiency of heat and mass transfer processes and dust collection in a wide range of productivity, in the proposed scrubber a pipe is installed coaxially with a rod, irrigation nozzles are installed in the lower part and in the upper part. The drawing shows a scrubber, a longitudinal section. One or several supporting grids 2 are installed in the housing 1, on which a movable nozzle 3 is placed. The supporting grids are not attached to the scrubber housing. There is a gap between the housing and the grilles necessary to effect free vibration of the grill. The size of the gap must be such as to further collapse and seize the balls. The scrubber is equipped with a vibrator 4 having a rod, coaxially with which the pipe 6 is installed. Through the rod, the vibrator is rigidly connected to the supporting grids, the pipe 6 and the pump 7 of the membrane type installed in the lower part of the pipe. The rod of the vibrator is introduced into the scrubber through a rubber insert 8, which ensures tightness. The scrubber in the lower part is provided with a tank 9 with irrigation liquid, and in the upper part a droplet of 1O is supplied in the form of a non-irrigated nozzle enclosed between the grids 11 rigidly connected to the housing. The inlet and outlet of the gas are carried out respectively through the nozzles 12, 13, the flow of liquid through the nozzle 14, the discharge of the liquid through the nozzles 15, 16. The pre-column scrubber works as follows. The gas to be treated (odifta), through the pipe 12 enters the tank with a constant level of liquid, then - in 1 with one or several supporting grids, on which is placed a mobile nozzle. The latter is irrigated with a diaphragm-type pump. Under the action of a vibrator impulse directed downward, the membrane rises into the liquid and enters the tube 6. In the lowest position, the diaphragm closes the inlet and holds the liquid column in the tube. With an upward impulse, the column of liquid rises and is supplied through the spray nozzles to the nozzle. Further cycles are repeated, provide. Sheni nozzles. The droplets are captured at the exit of the apparatus by a non-irrigated movable nozzle enclosed between two grids 11. The gratings of apparatus 2 (as well as the vibropump) are vibrated in motion by the vibrator 4. The vibrating grids bring the nozzle and the fluidization state. From the apparatus, the gas exits through the nozzle 13. The nozzle 14 serves to supply liquid, the nozzle 15 and 16 are designed to discharge the treated liquid (pulp) from the scrubber. Thus, the vibrator provides the grate vibration and continuous irrigation of the nozzle. In the proposed scrubber, it is possible to use a cheap, non-deficient and heat-resistant nozzle with a bulk weight of more than 1 g / c1, for example, from solid wood and even metal balls; It is possible to use higher layers of polyethylene balls. Owing to the displacement of the packing due to vibration, rather than to the gas flow, in all cases a decrease in the aerodynamic resistance of the apparatus is observed by 2 ~ 30%. The higher bulk density of the nozzle causes it to boil in a tight package, thereby providing higher mass transfer rates compared to the known scrubber Formula of the invention Scrubber with a movable nozzle, including a housing with support grids, in which the rod connected to the vibrator is fixed, the capacity with irrigation fluid is different that, in order to increase the efficiency of heat and mass transfer processes and dust collection in a wide range of productivity, a pipe is installed coaxially with a rod Situated membrane type pump, while the upper part - the irrigation nozzle.

/ 7